Risk Factors Associated With The Expansion Of CGG Repeat Sequences In The FMR1 (fragile X) Gene: A Study In Tasmania
Funder
National Health and Medical Research Council
Funding Amount
$246,020.00
Summary
This study will identify the risk factors that lie in an individual's DNA profile for a disease called fragile X syndrome. This disease is the most common form of intellectual disability that runs in families caused by an unusual form of change in a particular gene called FMR1, whereby a very short sequence of DNA in a gene expands by repeating itself to such an extent that once it reaches a certain size the whole gene stops working and the disease occurs. The expansion in the gene is not unifor ....This study will identify the risk factors that lie in an individual's DNA profile for a disease called fragile X syndrome. This disease is the most common form of intellectual disability that runs in families caused by an unusual form of change in a particular gene called FMR1, whereby a very short sequence of DNA in a gene expands by repeating itself to such an extent that once it reaches a certain size the whole gene stops working and the disease occurs. The expansion in the gene is not uniform across the generations, and only occurs when passed on from the mother to her offspring. However, many females carrying only a short sequence may pass on, for unknown reasons, either a large expanded sequence leading to disease, or one similar in size to her own. This complexity in the progression of the number of CGG repeats means that there is a relatively large number of mothers, ~1 in 300, who are quite normal but at risk of having an affected offspring. The factors that trigger this expansion in the DNA are presently not well understood, but a number of genetic markers in the FMR1 gene have been implicated. This study will assess the contribution of an array of these genetic markers in determining the risk of expansion of the short repeat from mother to offspring and hence the risk of fragile X. Conducting this study in Tasmania has two advantages. First, by having access to genealogical records that permit the linking of fragile X families we shall be able to identify common predisposing factors of fragile X more accurately. Second, by testing the whole population with intellectual disability in one State of manageable size we shall obtain an unbiased estimate of the prevalence of fragile X.Read moreRead less
Physiological Genomic Analysis Of Lvm-1 - A Genetic Locus That Determines Left Ventricular Mass
Funder
National Health and Medical Research Council
Funding Amount
$356,540.00
Summary
As many as one in ten healthy individuals have big hearts. Careful scientific investigation has revealed that the bigger one's heart, the greater the risk of dying from cardiovascular disease. This is true even in the absence of known causes of heart disease. Unlike high blood pressure or cholesterol, the size of the heart is not easily measured and enlargement often goes undetected. We were among the first internationally to discover genetic clues to enlarged hearts. We identified regions on ra ....As many as one in ten healthy individuals have big hearts. Careful scientific investigation has revealed that the bigger one's heart, the greater the risk of dying from cardiovascular disease. This is true even in the absence of known causes of heart disease. Unlike high blood pressure or cholesterol, the size of the heart is not easily measured and enlargement often goes undetected. We were among the first internationally to discover genetic clues to enlarged hearts. We identified regions on rat chromosomes that harbour the gene or genes that influence heart size. The aim of these studies is to identify the exact gene responsible and to understand how that gene produces its effects. The experiments involve testing DNA samples already obtained from many hundreds of rats and breeding animals to study the consequences of the genetic abnormality in greater detail. The experiments are critical steps towards the prevention of big hearts and their complications in humans. In time, genetic tests will offer earlier detection and facilitate targeted and tailored treatments.Read moreRead less
Australian Genomewide Association Study In Osteoporosis
Funder
National Health and Medical Research Council
Funding Amount
$882,722.00
Summary
Osteoporosis is a common condition in which bone strength is reduced due to reduced amount and quality of bone. Reduced bone strength means an increased risk of fracture. Osteoporotic fractures occur in 1 in 2 women and 1 in 3 men in their lifetime, and the likelihood of suffering osteoporotic fracture increases with age. Most of the risk of developing osteoporosis is genetic, but few of the genes involved have been identified. Our goal is to identify those genes.
A Genome Wide Association Study For Alcohol And Nicotine Addiction Susceptibility Genes
Funder
National Health and Medical Research Council
Funding Amount
$872,816.00
Summary
Alcohol and nicotine addiction are major public health problems within Australia. As well as the personal and economic costs associated with dependence, there is a wide range of downstream health effects from heavy drinking and smoking. This is a proposal for a genome wide association study to systematically screen and identify genetic variants within the Australian population that affects an individual's liability to developing alcohol addiction, nicotine addiction or both.
Identifying Endophenotypes For Eating Disorders And Their Relationship To Specific Genotypes And Environments
Funder
National Health and Medical Research Council
Funding Amount
$507,419.00
Summary
Around 15% of Australian women will have an eating disorder at some time in their life, and half of these will experience significant levels of depression and suicidality. The current project seeks to build better models of the initiation and maintenance of eating disorders that can inform development of effective treatments, with identification of genes and environments that predict the various components that define eating disorders (i.e., behaviours, temperaments and cognitive flexibility).